Incident haemodialysis and outcomes in the Top End of Australia
Jaquelyne T. Hughes A B G , Sandawana W. Majoni A B C , Federica Barzi A , Tegan M. Harris A , Selina Signal B , Gwendoline Lowah B , Jola Kapojos B , Asanga Abeyaratne B , Madhivanan Sundaram B , Paul Goldrick D , Sarah L. Jones D , Robert McFarlane E , Lewis T. Campbell A C D , Dianne Stephens C D F and Alan Cass AA Menzies School of Health Research, Charles Darwin University, PO Box 41096, Casuarina, NT 0811, Australia. Email: william.majoni@nt.gov.au; federica.barzi@nt.gov.au; Tegan.Harris@menzies.edu.au; Lewis.Campbell@nt.gov.au; alan.cass@menzies.edu.au
B Department of Nephrology, Division of Medicine, Royal Darwin Hospital, PO Box 41326, Casuarina, NT 0811, Australia. Email: Selina.Signal@nt.gov.au; Gwendoline.Lowah@nt.gov.au; Jola.Kapojos@sa.gov.au; Asanga.Abeyaratne@nt.gov.au; Madhivanan.Sundaram@nt.gov.au
C Northern Territory Clinical School, Flinders University, Darwin, NT 0811, Australia. Email: Dianne.Stephens@nt.gov.au
D Intensive Care Unit, Royal Darwin Hospital, PO Box 40596, Casuarina, NT 0811, Australia. Email: Paul.Goldrick@nt.gov.au; SarahL.Jones@nt.gov.au
E Chemical Pathology, Territory Pathology, Department of Health, PO Box 41326, Casuarina, NT 0811, Australia. Email: Robert.McFarlane@nt.gov.au
F National Critical Care and Trauma Response Centre, Royal Darwin Hospital, Darwin, NT 0810, Australia.
G Corresponding author. Email: Jaqui.hughes@menzies.edu.au
Australian Health Review 44(2) 234-240 https://doi.org/10.1071/AH18230
Submitted: 2 November 2018 Accepted: 6 January 2019 Published: 18 April 2019
Journal Compilation © AHHA 2020 Open Access CC BY-NC-ND
Abstract
Objective The Northern Territory has the highest incidence of haemodialysis care for end-stage kidney disease in Australia. Although acute kidney injury (AKI) is a recognised risk for chronic kidney disease (CKD), the effect of AKI causing incident haemodialysis (iHD) is unknown. Audits identifying antecedents of iHD may inform health service planning. Thus, the aims of this study were to describe: (1) the development of an iHD recording system involving patients with AKI and CKD; and (2) the incidence, patient characteristics and mortality for patients with dialysis-requiring AKI.
Methods A retrospective data linkage study was conducted using eight clinical and administrative datasets of adults receiving iHD during the period from July 2011 to December 2012 within a major northern Australian hospital for AKI without CKD (AKI), AKI in people with pre-existing CKD (AKI/CKD) and CKD (without AKI). The time to death was identified by the Northern Territory Register of deaths.
Results In all, 121 iHD treatments were provided for the cohort, whose mean age was 51.5 years with 53.7% female, 68.6% Aboriginal ethnicity and 46.3% with diabetes. iHD was provided for AKI (23.1%), AKI/CKD (47.1%) and CKD (29.8%). The 90-day mortality rate was 25.6% (AKI 39.3%, AKI/CKD 22.8%, CKD 19.4%). The 3-year mortality rate was 45.5% (AKI 53.6%, AKI/CKD 22.8%, CKD 19.4%). The time between requesting data from custodians and receipt of data ranged from 15 to 1046 days.
Conclusion AKI in people with pre-existing CKD was a common cause of iHD. Health service planning and community health may benefit from AKI prevention strategies and the implementation of sustainable and permanent linkages with the datasets used to monitor prospective incident haemodialysis.
What is known about the topic? AKI is a risk factor for CKD. The Northern Territory has the highest national incidence rates of dialysis-dependent end-stage kidney disease, but has no audit tool describing outcomes of dialysis-requiring AKI.
What does this paper add? We audited all iHD and showed 25.6% mortality within the first 90 days of iHD and 45.5% overall mortality at 3 years. AKI in people with pre-existing CKD caused 47.1% of iHD.
What are the implications for practitioners? Health service planning and community health may benefit from AKI prevention strategies and the implementation of sustainable and permanent linkages with the datasets used to monitor prospective incident haemodialysis.
Additional keywords: acute kidney injury, end-stage kidney disease, health services, Indigenous Australian.
References
[1] Ostermann M, Liu K. Pathophysiology of AKI. Best Pract Res Clin Anaesthesiol 2017; 31 305–14.| Pathophysiology of AKI.Crossref | GoogleScholarGoogle Scholar | 29248138PubMed |
[2] Gallagher M, Cass A, Bellomo R, Finfer S, Gattas D, Lee J, Lo S, McGuinness S, Myburgh J, Parke R, Rajbhandari D, for the POST-RENAL Study Investigators and the ANZICS Clinical Trials Group Long-term survival and dialysis dependency following acute kidney injury in intensive care: extended follow-up of a randomized controlled trial. PLoS Med 2014; 11 e1001601
| Long-term survival and dialysis dependency following acute kidney injury in intensive care: extended follow-up of a randomized controlled trial.Crossref | GoogleScholarGoogle Scholar | 24523666PubMed |
[3] Lafrance J-P, Miller DR. Acute kidney injury associates with increased long-term mortality. J Am Soc Nephrol 2010; 21 345–52.
| Acute kidney injury associates with increased long-term mortality.Crossref | GoogleScholarGoogle Scholar | 20019168PubMed |
[4] Levey AS, de Jong PE, Coresh J, Nahas ME, Astor BC, Matsushita K, Gansevoort RT, Kasiske BL, Eckardt KU. The definition, classification, and prognosis of chronic kidney disease: a KDIGO Controversies conference report. Kidney Int 2011; 80 17–28.
| The definition, classification, and prognosis of chronic kidney disease: a KDIGO Controversies conference report.Crossref | GoogleScholarGoogle Scholar | 21150873PubMed |
[5] Bagshaw SM, Sood MM, Long J, Fowler RA, Adhikari NK. Acute kidney injury among critically ill patients with pandemic H1N1 influenza A in Canada: cohort study. BMC Nephrol 2013; 14 123
| Acute kidney injury among critically ill patients with pandemic H1N1 influenza A in Canada: cohort study.Crossref | GoogleScholarGoogle Scholar | 23763900PubMed |
[6] Hill NR, Fatoba ST, Oke JL, Hirst JA, O’Callaghan CA, Lasserson DS, Hobbs FDR. Global prevalence of chronic kidney disease – a systematic review and meta-analysis. PLoS One 2016; 11 e0158765
| Global prevalence of chronic kidney disease – a systematic review and meta-analysis.Crossref | GoogleScholarGoogle Scholar | 27383068PubMed |
[7] Australia and New Zealand Dialysis and Transplant Registry (ANZDATA). New patient registration form. Adelaide: ANZDATA; 2017. Available at: http://www.anzdata.org.au/forms/ANZDATA-New-Patient-Form-20170307.pdf [verified 22 August 2018].
[8] Australia and New Zealand Dialysis and Transplant Registry (ANZDATA). Chapter 12: End stage kidney disease among Indigenous peoples of Australia and New Zealand. In: Clayton P, editor. Australia and New Zealand Dialysis and Transplant Registry 39th Annual Report. Adelaide: ANZDATA; 2017. Available at: http://www.anzdata.org.au/anzdata/AnzdataReport/39thReport/c12_indigenous_v5.0_20170821 [verified 5 March 2019].
[9] Holwell A, Cherian S, Barzi F, Brady S, Hughes J. Rapid progression of chronic kidney disease in five years prior to haemodialysis initiation in Central Australia. Renal Soc Australas J 2017; 13 5–8.
[10] Hughes JT, Dembski L, Kerrigan V, Majoni SW, Lawton PD, Cass A. Gathering perspectives – finding solutions for chronic and end stage kidney disease. Nephrology (Carlton) 2018; 23 5–13.
| Gathering perspectives – finding solutions for chronic and end stage kidney disease.Crossref | GoogleScholarGoogle Scholar |
[11] Hughes JT, Walker CJ, Kara T, McDonald S, Jose M, Rosman J, Lawton P, Kim S, Palmer S. Exploring data custodianship, ownership, and governance within the Australia and New Zealand Dialysis and Transplant (ANZDATA) Registry. Nephrology (Carlton) 2016; 21 204
[12] Hughes JT, Palmer SC. Strengthening ANZDATA structure and processes to improve Aboriginal and Torres Strait Islander and Mãori Health. Presented at ANZSN Clinical Policy Advisory Committee Workshop; 28 February 2017; Adelaide, SA, Australia. Available at: http://www.anzdata.org.au/documents/presentations/DNT_2017_ANZDATA%20Session%208_JH01032017.pdf [verified 5 March 2019].
[13] Australia and New Zealand Dialysis and Transplant Registry (ANZDATA). Australia and New Zealand Dialysis and Transplant Registry (ANZDATA) 38th Annual Report. Adelaide: ANZDATA; 2016.
[14] Australian Institute of Health and Welfare (AIHW). Acute kidney injury in Australia: a first national snapshot. Catalogue no. PHE 190. Canberra: AIHW; 2015.
[15] Kellum JA, editor. KDIGO clinical practice guideline for acute kidney injury. Section 2: AKI definition. Kidney Int Suppl 2012; 2: 19–36.
[16] The Hugo Centre. Accessibility/Remoteness Index of Australia. ARIA 2011+. 2017. Available at: https://www.adelaide.edu.au/hugo-centre/services/aria#example-aria-calculation [verified 5 March 2019].
[17] Maple-Brown LJ, Hughes JT, Lawton PD, Jones GRD, Ellis AG, Drabsch K, Brown ADH, Cass A, Hoy WE, MacIsaac RJ, O’Dea K, Jerums G. Accurate assessment of kidney function in Indigenous Australians: the estimated gfr study. Am J Kidney Dis 2012; 60 680–2.
| Accurate assessment of kidney function in Indigenous Australians: the estimated gfr study.Crossref | GoogleScholarGoogle Scholar | 22884671PubMed |
[18] Zimmerman JE, Wagner DP, Draper EA, Wright L, Alzola C, Knaus WA. Evaluation of Acute Physiology And Chronic Health Evaluation III predictions of hospital mortality in an independent database. Crit Care Med 1998; 26 1317–26.
| Evaluation of Acute Physiology And Chronic Health Evaluation III predictions of hospital mortality in an independent database.Crossref | GoogleScholarGoogle Scholar | 9710088PubMed |
[19] McDonald SP, Russ GR. Australian registries – ANZDATA and ANZOD. Transplant Rev 2013; 27 46–9.
| Australian registries – ANZDATA and ANZOD.Crossref | GoogleScholarGoogle Scholar |
[20] Davis JS, He V, Anstey NM, Condon JR. Long term outcomes following hospital admission for sepsis using relative survival analysis: a prospective cohort study of 1,092 patients with 5 year follow up. PLoS One 2014; 9 e112224
| 25486241PubMed |
[21] Chalmers RM, Majoni SW, Ward L, Perry GJ, Jabbar Z, Currie BJ. Melioidosis and end-stage renal disease in tropical northern Australia. Kidney Int 2014; 86 867–70.
| Melioidosis and end-stage renal disease in tropical northern Australia.Crossref | GoogleScholarGoogle Scholar | 25360487PubMed |
[22] Lawton PD, Cunningham J, Hadlow N, Zhao Y, Jose MD. Chronic kidney disease in the Top End of the Northern Territory of Australia, 2002–2011: a retrospective cohort study using existing laboratory data. BMC Nephrol 2015; 16 168
| Chronic kidney disease in the Top End of the Northern Territory of Australia, 2002–2011: a retrospective cohort study using existing laboratory data.Crossref | GoogleScholarGoogle Scholar | 26494472PubMed |
[23] Hughes J, Mick-Ramsamy L, Mills P, Ross L, Kelly J. Summary report, Darwin, catching some air – asserting Aboriginal and Torres Strait Islander information rights in renal disease. Darwin: Menzies School of Health Research; 2018.
[24] Duff D, Jesudason S, Howell M, Hughes JT. A partnership approach to engage Aboriginal and Torres Strait Islander peoples with clinical guideline development for chronic kidney disease. Renal Soc Australas J 2018; 14 84–8.